Comparison Between Electroporation at Different Voltage Levels and Microinjection to Generate Porcine Embryos with Multiple Xenoantigen Knock-Outs

In the context of xenotransplantation, the production of genetically modified pigs is essential. For several years, knock-out pigs were generated through somatic cell nuclear transfer employing donor cells with the desired genetic modifications, which resulted in a lengthy and cumbersome procedure....

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Bibliographic Details
Published in:International journal of molecular sciences 2024-11, Vol.25 (22), p.11894
Main Authors: Fernández, Juan Pablo, Petersen, Björn, Hassel, Petra, Lucas Hahn, Andrea, Kielau, Paul, Geibel, Johannes, Kues, Wilfried A
Format: Article
Language:English
Subjects:
Analysis
Animal genetic engineering
Animals
Animals, Genetically Modified
Antigens, Heterophile - genetics
Antigens, Heterophile - immunology
Blastocyst - metabolism
Cloning
Comparative analysis
CRISPR
CRISPR-Cas Systems
Efficiency
Electroporation - methods
Embryo, Mammalian - metabolism
Embryonic development
Experiments
Galactosyltransferases - genetics
Gene Editing - methods
Gene Knockout Techniques - methods
Genes
Genetically modified animals
Genome editing
Genomics
Hogs
In vitro fertilization
Microinjections - methods
Mixed Function Oxygenases
Mosaicism
Mutation
Normal distribution
Plasmids
Swine
Zygote - metabolism
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Summary:In the context of xenotransplantation, the production of genetically modified pigs is essential. For several years, knock-out pigs were generated through somatic cell nuclear transfer employing donor cells with the desired genetic modifications, which resulted in a lengthy and cumbersome procedure. The CRISPR/Cas9 system enables direct targeting of specific genes in zygotes directly through microinjection or electroporation. However, these techniques require improvement to minimize mosaicism and low mutation rates without compromising embryo survival. This study aimed to determine the gene editing potential of these two techniques to deliver multiplexed ribonucleotide proteins (RNPs) to generate triple-knock-out porcine embryos with a multi-transgenic background. We designed RNP complexes targeting the major porcine xenoantigens , , and . We then compared the development of mosaicism and gene editing efficiencies between electroporation and microinjection. Our results indicated a significant effect of voltage increase on molecule intake in electroporated embryos, without it notably affecting the blastocyst formation rate. Our gene editing analysis revealed differences among delivery approaches and gene loci. Notably, employing electroporation at 35 V yielded the highest frequency of biallelic disruptions. However, mosaicism was the predominant genetic variant in all RNP delivery methods, underscoring the need for further research to optimize multiplex genome editing in porcine zygotes.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms252211894